Effect of Er30cu70 on Microstructure and Properties of the Sintered Nd-Fe-B by Grain Boundary Reconstruction

Usually it is generally believed that the Er element forms the Er 2 Fe 14 B phase, which will seriously deteriorate the magnetic properties. Distinctly, here we report the balance of corrosion resistance and coercivity in Nd-Fe-B sintered magnets through using simple Er 30 Cu 70 additive whose price is much lower than Dy and Tb. By reasonably controlling Er 30 Cu 70 addition, the corrosion resistance is improved at the minimum limit of reducing the magnetic properties. Through studying the influence mechanism of Er element, it is found that the main effect of Er elements on the magnetic properties is to replace the Nd elements at the edge of the main phase grains to form a (Er,Nd) 2 Fe 14 B shell with low H A , resulting in the reduction of magnetic properties. The improvement of corrosion resistance mainly comes from the more stable Cu element introduced at the grain boundary. At the same time, the target magnets also show different advantages under different heat treatment methods. Therefore, our exploration of Er and Cu synergy may pave a novel way that obtain optimal corrosion resistance and maintain high magnetic properties simultaneously in Nd-Fe-B magnet, developing the low-cost permanent magnets that rival the commercial Nd-Fe-B counterpart.

Keywords: Er30Cu70 alloy, Grain boundary reconstruction, magnetic properties, Corrosion resistance, Heat treatment

Suggested Citation: Suggested Citation

Wang, Kai and Dai, Yongtao and Deng, Jianqiu and Wang, Jiang and Zhou, Huaiying and Yao, Qingrong and Huang, Weichao, Effect of Er30cu70 on Microstructure and Properties of the Sintered Nd-Fe-B by Grain Boundary Reconstruction. Available at SSRN: https://ssrn.com/abstract=4116282 or http://dx.doi.org/10.2139/ssrn.4116282